Chapter 3 Electrochemical methods of Analysis-Potentiometry 3 Elcrtroanal... · A galvanic cell...

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Chapter 3 Electrochemical methods of Analysis-Potentiometry

Transcript of Chapter 3 Electrochemical methods of Analysis-Potentiometry 3 Elcrtroanal... · A galvanic cell...

Page 1: Chapter 3 Electrochemical methods of Analysis-Potentiometry 3 Elcrtroanal... · A galvanic cell results in a positive voltage because the chemical reaction is spontaneous. ... Advantages

Chapter 3

Electrochemical methods

of Analysis-Potentiometry

Page 2: Chapter 3 Electrochemical methods of Analysis-Potentiometry 3 Elcrtroanal... · A galvanic cell results in a positive voltage because the chemical reaction is spontaneous. ... Advantages

2

Electroanalytical chemistry

Contents

• Introduction

• Galvanic and electrolytic cells

• Salt bridge

• Electrode potential and cell potential

• Indicator electrodes

• Reference electrodes

• Ion-selective electrodes

• Potentiometric methods of analysis

– Direct potentiometry

– Potentiometric titration

• Automatic titration

• Flow injection analysis

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Electroanalytical chemistry

Electroanalytical chemistry is a group of methods based upon the electrical properties of a solution of the analyte.

Electroanalytical techniques are capable of producing very low detection limits.

Electroanalytical techniques are often specific for a particular oxidation state of an element, where other techniques are only capable of revealing total concentrations of an element.

Electroanalytical techniques require relatively inexpensive equipment.

Electroanalytical techniques provide information about activities rather than concentrations.

Ordinarily, it’s the activities of ions that are significant in “how things work”.

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Recall from Freshman Chemistry:

• Oxidation: Loss of electrons or increase in

the oxidation number

• Fe 2+ + e- Fe3+

• Reduction: Gain of electrons or decreases in the oxidation state

• Cu2+ + 2 e- Cu

• Redox reaction

• Zn + Cu2+ - Zn2+ + Cu

• Oxidizing agent: Species that is being reduced and causes an oxidation

• Reducing agent: Species that is being oxidized and cause a reduction

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Half-Cells= Half-cell reaction

cathodeE

anodeE

AgM)(0.0200AgM)(0.0200CuCu

2Ag(s)Cu2AgCu(s)

2

2

anodecathodecell

leftrightcell

EEE

EEE

AgM)(0.0200Ag

Ag(s)Ag

e

CuM)(0.0200Cu

Cu(s)2eCu

2

2

By convention, all Half-Cell reactions

are written as reduction half-reactions

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Galvanic Cells

A galvanic cell uses a spontaneous chemical reaction to generate electricity.

One reagent (Cd) is oxidized at the anode.

Another reagent (AgCl) is reduced at the cathode.

The process:

1. Cd metal is oxidized at the anode.

2. The electrons flow through the circuit to the Ag electrode.

3. At the surface of the electrode, Ag+ (from AgCl) is reduced to Ag(s).

The chloride goes into solution.

A galvanic cell results in a positive voltage because the chemical reaction is spontaneous.

Cd Cd2+ + 2e

AgCl + e Ag(s) + Cl-

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Galvanic Cells

The charge actually flows because the sum of the two half-cell reactions is NOT in equilibrium.

The magnitude of the potential is related to the tendency for the reaction to proceed toward equilibrium.

The potential will become smaller and smaller as the reaction proceeds and will be 0.00V once equilibrium is reached.

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Galvanic Cell = Battery

Ag(s)eAg

2eCu Cu(s) 2

2Cu2Ag(s) Cu(s)2Ag

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Electrolytic Cells

eAgAg(s)

Cu(s) 2eCu2

Cu(s)2AgCu2Ag(s) 2

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Anodes and Cathodes

O3HNH8e10HNO

FeeFe

Ag(s)eAg

24

-

3

23

eFeFe

2e(g)Cl 2Cl

2eCu Cu(s)

32

2

-

2

Anode - Oxidation takes place

Cathode - Reduction takes place

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Electrochemical Cell Representations

AgM)(0.0200AgM)(0.0200CuCu

2Ag(s)Cu 2AgCu(s)

2

2

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Electrode Potentials

• It is the driving force for either

reduction or oxidation half reaction,

when by convention, they are both

written as reductions.

• Cu2+ + 2e- ↔ Cu

• Ag + + e- ↔ Ag

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Controlling and measuring Potential

• Electrochemical Cell Consists of :

– Two or more electrodes, Electrolyte, Electronics for controlling and measuring the potential

– Indicator (Working) Electrode: One whose potential is sensitive to the analyt’s concentration

– Counter (Reference)Electrode: It completes the electric circuit and provides a reference potential against which the working electrode potential is measured. Its potential remains constant

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Reference Electrodes

• One of the half-cells provides a known reference potential, and the potential of the other half-cell indicates the analyte's concentration.

• By convention, Ecell = Eind - Eref

• The ideal reference electrode must provide a stable potential so that any change in Ecell is

attributed to the indicator electrode, and, therefore, to a change in the analyte's concentration.

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H2 gas

1.000 atm

1 M HCl

E = 0.00000 V

Reference Electrode, SHE

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Calomel Electrode

saturated calomel electrode- S.C.E

E0= +0.241 V

A small hole connects the two tubes, and an asbestos fiber serves as a salt bridge to the solution in which the SCE is immersed. The stopper in the outer tube may be removed when additional saturated KCl is needed.

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If the KCl solution is saturated

then E0(saturated KCl) = 0.197 V

Silver/Silver Chloride Reference Electrode

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Indicator Electrodes

• The potential of the indicator electrode

in a potentiometric electrochemical cell

is proportional to the concentration of

analyte.

• Two classes of indicator electrodes are

used in potentiometry: metallic

electrodes, and membrane

ion-selective electrodes.

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Membrane Ion-Selective Electrodes

• The discovery, that a thin glass membrane

develops a potential, called a membrane

potential, when opposite sides of this

membrane are in contact with solutions of

different pH led to the eventual development

of a whole new class of indicator electrodes

called ion-selective electrodes (ISEs).

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Using Ion-Selective Electrodes

Advantages of ion-selective electrodes

Linear response to log A over a wide range.

Don’t consume unknown.

Don’t contaminate unknown.

Have short response time.

Color and turbidity do not hinder the electrode.

Disadvantages

Respond to the activity (not concentration).

Only responds to uncomplexed analyte ions.

Precision is rarely better than 1%.

Certain ions interfere with or poison particular electrodes which leads to sluggish, drifting response.

Some are fragile and have limited shelf life.

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Applications of Potentiometry with Practical

Selective Electrodes-Ion

ISE are unique in determining:

– Free ions (good for toxicity).

– Determination of anions.

– Monitoring toxic gases e.g., SO2, H2S, NH3, CN.

– Accessible to automated continues .

Scope of Applications:

• Water analysis:

– Surface, Sea, ground, potable, and waste water.

• Atmospheric analysis:

• Gases are absorbed in solutions aerosol is deposited on filters.

• Sediment dust and soil are tedious to prepare.

• Analysis of foodstuffs.

• Clinical analysis.

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Advantages of Ion-selective electrodes

1) When compared to many other analytical techniques, Ion-Selective Electrodes are relatively inexpensive and simple to use and have an extremely wide range of applications and wide concentration range.

2) The most recent plastic-bodied all-solid-state or gel filled models are very robust and durable and ideal for use in either field or laboratory environments.

3) Under the most favorable conditions, when measuring ions in relatively dilute aqueous solutions and where interfering ions are not a problem, they can be used very rapidly and easily (e.g. simply dipping in lakes or rivers, dangling from a bridge or dragging behind a boat).

4) They are particularly useful in applications where only an order of magnitude concentration is required, or it is only necessary to know that a particular ion is below a certain concentration level.

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5) They are invaluable for the continuous monitoring of changes in concentration: e.g. in potentiometric titrations or monitoring the uptake of nutrients, or the consumption of reagents.

6) They are particularly useful in biological and medical applications because they measure the activity of the ion directly, rather than the concentration.

7) In applications where interfering ions, pH levels, or high concentrations are a problem, then many manufacturers can supply a library of specialized experimental methods and special reagents to overcome many of these difficulties.

8) With careful use, frequent calibration, and an awareness of the limitations, they can achieve accuracy and precision levels of 2 or 3% for some elements and thus compare favorably with analytical techniques which require far more complex and expensive instrumentation.

9) ISEs are one of the few techniques which can measure both positive and negative ions.

10) ISEs can be used in aqueous solutions over a wide temperature range. Crystal membranes can operate in the range 0°C to 80°C and plastic membranes from 0°C to 50°C.

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Types of Ion-selective Electrodes

There’s four classes of ion-selective electrodes:

1. Glass membranes

– These are selective to H+ and certain monovalent

cations.

2. Solid-state electrodes

– These are made of inorganic salt crystals.

– The inorganic salt is made such to have vacancies in

its lattice structure.

– The vacancies allow the ion (needed to fill the

vacancy) to migrate through the salt.

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3. Liquid-based electrodes

– A mobile carrier transports the selected ion across a membrane impregnated with a liquid solution of the carrier.

4. Molecular Electrodes

1. These contain a conventional electrode surrounded by a membrane that isolates (or generates) the analyte to which the electrode responds.

2. For example, a CO2 electrode responds the change in pH due to the presence of the CO2.

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Combined Glass Electrodes for measuring pH

• These consists of a thin

glass bulb at the bottom

that is selective to H+.

• Two reference

electrodes (usually

Ag/AgCl) measure the

potential difference

across the membrane.

]log[Hz

0.0592K

cellE

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Membrane Potentials

• ISE, such as the glass pH electrode, function by using a membrane that reacts selectively with a single ion.

• Ecell = K + (0.0591/z) log [A] sample

• This equation applies to all types of ISE’s.

• For the glass electrode:

• Ecell = K - (0.0591pH)

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Example

Page 29: Chapter 3 Electrochemical methods of Analysis-Potentiometry 3 Elcrtroanal... · A galvanic cell results in a positive voltage because the chemical reaction is spontaneous. ... Advantages

Electrochemical cell for potentiometry with an ion selective

membrane electrode

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Potentiometric Methods

a) Direct Potentiometry

• Measure the electrode response in an unknown solution and read the concentration directly from the calibration graph (either manually or using special computer graphics and calculations) or from the meter display on a self-calibrating ion meter.

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Schematic of an ISE measurement

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Potential measuring device

•The indicator electrode produces a voltage that is proportional to

the concentration of the M± concentration, and the measurement

is made by a pH meter

•The indictor electrode is attached to control electronics which

convert the voltage to a pH (in case of a pH electrode) reading

and displays it on a meter

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Numerical example

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Potentiometric Titrations

• Potentiometry is generally valuable as a technique for detecting the end-point of titrations where there is often a drastic change in the concentrations of the reactants and thus a big shift in the electrode potential.

• These end point determinations can often be made more precisely than other ISE methods because they depend on the accuracy of the volumetric measurements rather than the measurement of the electrode potential.

• For example, when a calcium solution is titrated against the complexing reagent EDTA there is a gradual decrease in the Ca concentration as more EDTA is added until the end point when all the Ca disappears from solution.

• The progress of this titration can be monitored using a calcium electrode.

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Potentiometric Titration

Page 36: Chapter 3 Electrochemical methods of Analysis-Potentiometry 3 Elcrtroanal... · A galvanic cell results in a positive voltage because the chemical reaction is spontaneous. ... Advantages

First derivative plot of a potentiometric titration curve

Page 37: Chapter 3 Electrochemical methods of Analysis-Potentiometry 3 Elcrtroanal... · A galvanic cell results in a positive voltage because the chemical reaction is spontaneous. ... Advantages

Second derivative plot of potentiometric titration curve

Page 38: Chapter 3 Electrochemical methods of Analysis-Potentiometry 3 Elcrtroanal... · A galvanic cell results in a positive voltage because the chemical reaction is spontaneous. ... Advantages

Use of potentiometric titration to determine

pka values

H A H+ + A-

;

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Automatic titration

• Titrations can be automated and

controlled by a microprocessor.

• The titrant is delivered via an

automatic burette and the end-point is

detected potentiometrically with a glass

combination electrode.

• Alternatively, if ions other than

hydrogen are being measured, another

ion-selective electrode may be used.

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Automatic titration

• The apparatus is microprocessor controlled and can be

programmed to run in various modes:

(i) The rate of delivery of the titrant can be controlled

according to rate of change of potential, so it is added

more slowly as the rate of change in potential

increases, i.e. as the end-point is approached.

(ii) For titrations which take time to equilibrate as the

titrant is added, the instrument can be programmed to

delay after each incremental addition until the potential

becomes stable.

(iii) The detection of the end-point can be pre-set at a

fixed potential.

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Automatic Titration Apparatus

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• In flow injection analysis (FIA) the sample is injected

into a continuously flowing stream of reagent.

• The sample reacts with the reagent and this reaction

is measured with a detector.

• The wide range of detectors is available

Flow injection analysis

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• A precise volume of sample (1-100 l) is injected and passed

through the incubation coil

• Incubation coil is of sufficient length to allow the sample to

disperse in the reagent but not long enough for the sample to

become diluted so much that the integrity of the plug of sample

is lost.

• The detector response is dependent on the degree of

dispersion of the sample.

• The parameters which have to be optimized include:

– (i) The length and internal diameter of the incubation coil

– (ii) The flow rate

– (iii) The volume of sample injected

– (iv) The concentration of sample and reagents used.

• when set up, the method can replace titrations, and replicate

analyses can be conducted very quickly with minimal

consumption of reagents.